Chemical Modulation of Receptor Signaling Inhibits Regenerative Angiogenesis in Adult Zebrafish

Overview

Journal Nat Chem Biol

Specialties Biochemistry
Biology
Chemistry

Date 2006 Mar 28

PMID 16565716

Citations 52

Authors

Peter E Bayliss

Kimberly L Bellavance

Geoffrey G Whitehead

Joshua M Abrams

Sandrine Aegerter

Heather S Robbins

Douglas B Cowan

Mark T Keating

Terence OReilly

Jeanette M Wood

Thomas M Roberts

Joanne Chan

Affiliations

Soon will be listed here.

Abstract

We examined the role of angiogenesis and the need for receptor signaling using chemical inhibition of the vascular endothelial growth factor receptor in the adult zebrafish tail fin. Using a small-molecule inhibitor, we were able to exert precise control over blood vessel regeneration. An angiogenic limit to tissue regeneration was determined, as avascular tissue containing skin, pigment, neuronal axons and bone precursors could regenerate up to about 1 mm. This indicates that tissues can regenerate without direct interaction with endothelial cells and at a distance from blood supply. We also investigated whether the effects of chemical inhibition could be enhanced in zebrafish vascular mutants. We found that adult zebrafish, heterozygous for a mutation in the critical receptor effector phospholipase Cgamma1, show a greater sensitivity to chemical inhibition. This study illustrates the utility of the adult zebrafish as a new model system for receptor signaling and chemical biology.

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